Scott Burroughs scite author profile

P50, N100, and P200 auditory sensory gating could reflect mechanisms involved in protecting higher-order cognitive functions, suggesting relationships between sensory gating and cognition. This hypothesis was tested in 56 healthy adults who were administered the paired-click paradigm and two adaptations of the continuous performance test (Immediate/Delayed Memory Task, IMT/DMT). Stronger P50 gating correlated with fewer commission errors and prolonged reaction times on the DMT. Stronger N100 and P200 gating correlated with better discriminability on the DMT. Finally, prolonged P200 latency related to better discriminability on the IMT. These findings suggest that P50, N100, and P200 gating could be involved in protecting cognition by affecting response bias, behavioral inhibition, working memory, or attention.

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Sensory-gating deficit of the N100 mid-latency auditory evoked potential in medicated schizophrenia patients

Boutros¹,

Brockhaus-Dumke²,

Gjini³

et al. 2009

Schizophrenia Research

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The clinical and neuro-cognitive correlates of the P50 and N100 auditory evoked responses gating deficits in schizophrenia have thus far eluded identification. Based on our prior results, we hypothesized that, in addition to the P50, gating of the N100 is significantly decreased in schizophrenia and that this deficit correlates with the negative symptoms dimension of schizophrenia. Amplitudes and gating measures of the P50 and N100 were compared between stable outpatients (N=45) (mainly on atypical antipsychotics) with chronic schizophrenia and age-and gender-matched healthy controls (N=49) and the clinical correlates examined. All subjects underwent the pairedstimulus paradigm in 3 or 4 different days. Data from day one and the mean of all days (MOAD) were examined. P50 and N100 amplitudes and gating measures were correlated with PANSS and Wisconsin Card Sorting Test data. Utilizing day one data, no amplitude or gating measures were significantly different between the groups. Utilizing MOAD data, both P50 and N100 gating were significantly decreased in schizophrenia patients. The N100 gating deficit correlated with the negative-symptoms cluster and measures of frontal lobe dysfunction. The data suggest a correlation between N100 gating deficit and the negative-cognitive deficits dimensions of schizophrenia. Data also suggest that improving the signal to noise ratio (MOAD data) increases the sensitivity for detecting gating abnormalities and assessing their clinical correlates.Corresponding Author: Nash Boutros, MD. UPC-Jefferson., 2751 E. Jefferson, Suite 305, Detroit, MI 48207. Tel : 313-577-6687, Fax 313-577-5201, Email: nboutros@med.wayne.edu. Contributors: Dr. N.N. Boutros designed and managed the study. Drs. K. Gjini and A. Vedeniapin helped with data analysis and manuscript preparation. Drs. A. Brockhaus-Dumke, and Dr. Keshavan helped with data interpretation and writing of the manuscript. Mr. M. Elfakhani and Mr. S. Burroughs performed all subject recruitment, evoked potential evaluations (including peak picking) and data tabulation (including cross checking for errors).Conflicts of interest: None of the authors of this manuscript has any financial conflict or any form of conflict of interest with material presented. All authors had had full access to all of the data in the study and take responsibility for the integrity of the data and the accuracy of the data analysis.Publisher's Disclaimer: This is a PDF file of an unedited manuscript that has been accepted for publication. As a service to our customers we are providing this early version of the manuscript. The manuscript will undergo copyediting, typesetting, and review of the resulting proof before it is published in its final citable form. Please note that during the production process errors may be discovered which could affect the content, and all legal disclaimers that apply to the journal pertain. NIH Public Access IntroductionThe ability to inhibit or suppress the response to incoming irrelevant or redundant sensory input is a well do...

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The Role of Age, Gender, Education, and Intelligence in P50, N100, and P200 Auditory Sensory Gating

Lijffijt

Moeller

Boutros

et al. 2009

Journal of Psychophysiology

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P50, N100, and P200 auditory sensory gating reflect distinct mechanisms involved in protecting the integrity of higher-order functions. They have been implicated in multiple psychiatric disorders. Recent studies showed the (limited) effects of age and gender on sensory gating in control subjects, suggesting there may be other sources of variance. Two potential sources may be education and intelligence (intellectual capability), variables that frequently differ across studies and across experimental groups. We explored potential effects of age, gender, education, and intelligence (Shipley intelligence scale) on P50, N100, and P200 sensory gating measured with the paired-click paradigm in 60 healthy subjects recruited from the general population. Increased intellectual capability related to stronger N100 and P200 gating and more pronounced N100 and P200 amplitudes. In addition, increased age related to weaker P200 gating and smaller P200 amplitudes. Gender had negligible effects. Intellectual capability or age could contribute to variation in N100 or P200 auditory sensory gating and should be controlled for when studying sensory gating in clinical and control groups.

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Cocaine-dependence and cocaine-induced paranoia and mid-latency auditory evoked responses and sensory gating

Boutros

Gooding

Sundaresan

et al. 2006

Psychiatry Research

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State-Dependent Differences in Functional Connectivity in Young Children With Autism Spectrum Disorder

et al. 2015

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BackgroundWhile there is increasing evidence of altered brain connectivity in autism, the degree and direction of these alterations in connectivity and their uniqueness to autism has not been established. The aim of the present study was to compare connectivity in children with autism to that of typically developing controls and children with developmental delay without autism.MethodsWe assessed EEG spectral power, coherence, phase lag, Pearson and partial correlations, and epileptiform activity during the awake, slow wave sleep, and REM sleep states in 137 children aged 2 to 6 years with autism (n = 87), developmental delay without autism (n = 21), or typical development (n = 29).FindingsWe found that brain connectivity, as measured by coherence, phase lag, and Pearson and partial correlations distinguished children with autism from both neurotypical and developmentally delayed children. In general, children with autism had increased coherence which was most prominent during slow wave sleep.InterpretationFunctional connectivity is distinctly different in children with autism compared to samples with typical development and developmental delay without autism. Differences in connectivity in autism are state and region related. In this study, children with autism were characterized by a dynamically evolving pattern of altered connectivity.

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Scott Burroughs

P50, N100, and P200 sensory gating: Relationships with behavioral inhibition, attention, and working memory

Sensory-gating deficit of the N100 mid-latency auditory evoked potential in medicated schizophrenia patients

The Role of Age, Gender, Education, and Intelligence in P50, N100, and P200 Auditory Sensory Gating

Cocaine-dependence and cocaine-induced paranoia and mid-latency auditory evoked responses and sensory gating

State-Dependent Differences in Functional Connectivity in Young Children With Autism Spectrum Disorder

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